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Orthopaedic Proceedings
Vol. 97-B, Issue SUPP_16 | Pages 22 - 22
1 Dec 2015
Glehr M Amerstorfer F Baumgartner E Schwantzer G Fischerauer S Kühn K Leithner A
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The use of antibiotic-loaded cement has become a well-accepted method to develop high local antibiotic concentrations in orthopedic surgery. A new surgical technique has been established in our department in order to further increase the local antibiotic concentration, when implanting a prosthesis during revision surgery. By additional superficial vancomycin coating of the bone cement, high local antibiotic concentrations are generated. They should reach inhibiting and bactericidal concentrations of the respective pathogen during the first days after surgery.

The aim of this study was to state the safety of this method by analyzing postoperative serum and drain vancomycin concentrations. Attention was focused on possible systemic side effects. To determine nephrotoxicity, creatinine levels were also measured.

In total 32 revision operations (hip n=10, knee n=22) with additional superficial vancomycin coating were performed between 05/2013 and 04/2015. Procedures with removal of the prosthesis following temporary spacer implantation were excluded. In nine cases a one-stage procedure was performed, while in the others an arthroplasty or arthrodesis was performed after temporary spacer explantation. Vancomycin powder (2 grams) was added superficially to the surface of the bone cement and pressed onto manually before curing. Postoperative Vancomycin levels were measured in serum and the drain on day 1 to 5 or until the drain has been removed. In total 90 blood serum samples and 100 drain fluid samples were obtained.

The highest median vancomycin level from the drain was documented on postoperative day 1 with a value of 555.3 μg/mL (range 66.1 – 1081.8), continually decreasing until postoperative day 4. The highest value was documented on the second postoperative day with 2170.0 μg/mL. On the first postoperative day, a median serum vancomycin level of 3.35 μg/mL was present (range <2.0 – 8.5), while from postoperative day 2 to 5 a median level less than 2.0 μg/mL (range <2.0 – 7.2) was documented.

Anaphylactic reaction, red man syndrome or fever and chills were not observed after the surgical procedure. Furthermore, no subjective hearing loss was reported. Only in one case, a creatinine increase of 0.5 mg/dL from baseline value was detected. In this case the patient suffered preoperatively from a chronic kidney insufficiency.

In total two reinfections occurred, one after explanting a spacer with subsequent hip total endoprosthesis, the other one after a one-stage hip revision.

Superficial Vancomycin Coating of bone cement in orthopedic revision surgery represents a safe method to increase local inhibiting vancomycin concentrations.


Orthopaedic Proceedings
Vol. 97-B, Issue SUPP_15 | Pages 82 - 82
1 Dec 2015
Amerstorfer F Baumgartner E Leithner A Kühn K Schwantzer G Wolf M Glehr M
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In two-stage revision surgery of infected joint prosthesis, temporary bone cement spacers have been used for several years. By adding antibiotics to the cement, high local antibiotic concentrations that exceed the minimum inhibiting and bactericidal concentration of the respective pathogen during the first days after surgery, are achieved. Currently, aminoglycosides (e.g. gentamicin and tobramycin), as well as glycopetides (e.g vancomycin) are used as antibiotic agents and mixed into the acrylic cement. In order to increase the quantity of active antibiotic substances, we established a novel surgical technique of additional superficial vancomycin coating (SVC) of temporary bone cement spacer. The aim of this study was to analyze the safety of this method by measuring postoperative joint and serum vancomycin concentrations, as well as the creatinine levels.

We reviewed prospectively collected data on all patients, which were treated by explanting the prosthetic components, following temporary spacer implantation and SVC between 05/2013 and 04/2015 at the Department of Orthopedic Surgery, Medical University of Graz. In total 13 patients were treated by addition SVC during the study period. Before hardening, vancomycin powder (2 grams) was pressed manually onto the surface of the bone cement. Vancomycin levels were obtained from drains and blood samples on postoperative days 1 to 5. Forty-six blood serum samples and 52 drain fluid samples were available for further

On postoperative day one to five, a median serum vancomycin level of < 2.0 μg/mL was present (range <2.0 – 3.9). The highest median vancomycin level from the drain was documented on postoperative day 1 with a value of 388.0 μg/mL (range 44.4–1650.0), continually decreasing until postoperative day 4. After SVC, neither an anaphylactic reaction nor side effects such as a red man syndrome, fever and chills were observed. Furthermore, no patient complained about subjective hearing loss. No serum creatinine increase of 0.5 mg/dL from creatinine baseline value or a ≥50% increase from baseline was detected. After a median of 64 days (range 18–82), the temporary cement spacer was explanted followed by prosthesis implantation. During this time no reinfection occurred. One patient suffered from a dislocation of the spacer with a distal femur fracture and was therefore re-operated after 18 days.

Powdered vancomycin as an additional superficial coating of bone cement spacer results in much higher local antibiotic concentrations than in conventional spacers. The newly introduced method is feasible, safe and promising to enhance local inhibiting concentrations of vancomycin.